Method and apparatus for delivering multimedia multicast services over wireless communication systems

ABSTRACT

A method is provided for delivery of Multimedia Broadcast and Multicast Service (MBMS) over wireless systems. The method optimizes the number of paging messages sent over the air interface in order to enhance the overall system capacity. MBMS active Mobile Station User Equipments (UEs) track their locations to the granularity of a cell based on information sent by the system.

CROSS REFERENCE TO RELATED APPLICATION

This application is a continuation of U.S. patent application Ser. No. 10/281,754 filed Oct. 28, 2002, which claims the benefit of U.S. Provisional Application No. 60/388,384, filed Jun. 12, 2002, which is incorporated by reference as if fully set forth.

FIELD OF THE INVENTION

The present invention relates to the field of wireless communications. More particularly, the present invention relates to multimedia/broadcast and multicasting services with wireless systems.

BACKGROUND OF THE INVENTION

The development of Multimedia Broadcast and Multicasting Service (MBMS) is facing some technical difficulties for the delivery of these services because of the mobility of the subscriber unit (UE). The UE initiates Multicasting services by activating the corresponding packet data protocol (PDP) context and receives the appropriate acknowledgements. Then the UE, if not active in one of the multicasting services, reverts to an “Idle” mode of operation. The UE while being in “Idle” mode may receive services (e.g., voice calls) by listening to its paging channel. The system usually does not track the UE movements within a certain coverage area location area (LA) or routing area (RA). Therefore, in order to locate the UE, the system has to page in multiple cells which comprises the LA or RA. Some proposals for the Multicast services use the paging mechanism to locate the user (UE) for the delivery of a Multicasting service. This prior art solution, while simple, leads to a significant increase in paging traffic.

SUMMARY

A simple alternative is to have the system serving general packet radio service support node (SGSN) assign a group identification number to be used with the association with particular MBMS multicast service. A group identity is used to page active subscribers instead of using the individual identification of the mobile station in the paging process. The use of Multicast group identification reduces the amount of paging traffic by a magnitude of the number of active subscribers using this particular MBMS multicast service.

In addition to using the multicast group identification, paging traffic is further minimized by using the proposed cell-tracking mechanism, which reduces the paging area into one cell thereby reducing the paging traffic by a magnitude of the number of cells comprising the LA/RA. The UE, while being active on multicast services and in “Idle state,” monitors the cell changes. In case of any changes in the “Cell Identification” broadcast by the base station, the UE updates its current location (i.e., cell) enabling the system to avoid the necessity of paging the UE over multiple cells (LA/RA).

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a flow chart describing the operating method of the present invention; and

FIG. 2 is a flow chart further detailing the process of the present invention.

DETAILED DESCRIPTION OF THE DRAWINGS

The invention introduces a solution to the delivery of MBMS over wireless systems and optimizes the number of paging messages sent over the air interface, thereby enhancing the overall system capacity. The main features of the present invention are the use of a Group Identification number to distinguish wireless subscribers activating a particular MBMS multicast service and invoking, on an as-needed basis, the cell-location tracking mechanism in the UE. The cell-location tracking mechanism allows active MBMS multicast subscribers to track their current location to the granularity of a cell, based on information sent by the system. The invocation of the cell tracking mechanism is accomplished in several ways (e.g., using a flag in the broadcast channel or using a flag in the MBMS activation response message).

Making reference to FIG. 1, the system, at step S1 determines the number of active multicast users within the LA/RA. At step S2 the number N is compared against a given threshold. If the number of active multicast users is greater than the threshold, the routine branches to step S3, setting a flag (BB) that the UE need not track the cell identification number (ID). Thereafter, at step S4, the system delivers multicast updates using LA/RA paging. The program then cycles back to step S1 to monitor the number of active multicast users.

Returning to step S2, in the event that the number N of multicast users within LA/RA is less than the threshold, the routine branches and, at step S5, sets a flag to indicate that the UE is to track the cell ID. Thereafter, the program advances to step S6 where multicast updates are delivered using single cell paging. The program then returns to step S1 which functions in the manner previously described subsequent to return to step 1 from step S4.

Upon receiving an indication from the network to activate the cell tracking mechanism, a multicast subscriber UE who activates his services will monitor the Broadcast channel for a new Cell ID. If the UE detects any changes in the cell identification received over the broadcast channel, the UE starts location update procedures to update its cell location information in the universal terrestrial radio access (UTRAN) and the Supporting Node (SGSN) in the Core network. By tracking the most recent cell location within the LA/RA the system does not need to page the UE in the entire LA/RA for each new traffic for the multicast group.

The system merely needs to page the UE in the latest cell where the UE was reported present. The system uses a special Group Identification (ID) for paging the UE and others within the cell or LA/RA. This group identification is associated with the multicast service to which the UE is an active subscriber. The group identification (ID) is assigned to the UE upon activation of the service. The system, while triggering the cell-by-cell location update mechanism optimizes the number of cell location updates received on the access channel, i.e., the reduction in paging traffic should not negatively impact the overall system performance as a result of a dramatic increase in the number of location updates on the access channels. Therefore, the system tracks the number (N) of UEs engaged in multicast services within each LA/RA. If the number of active multicast UEs is smaller than a configurable threshold (T), the system activates the cell location tracking mechanism by setting the Cell Tracking Flag on the broadcast channel. If (N>T), the flag will remain unset, and the system pages the UE all over the LA/RA for each new multicasting traffic.

The objectives of the present invention are accomplished by having the UE track any changes in cell identification and invoking location update in association with multicast service activation. Then the system allocates a special group identification for paging multicast subscribers. In addition, the system tracks the number of active multicast services subscribers within the LA/RA. Moreover, there is provided a mechanism by which the system decides whether to invoke the cell location tracking mechanism or use the LA/RA paging mechanism to deliver multicast service notifications in the manner set forth in FIG. 1 and the accompanying description.

The operation at the UE as shown in FIG. 2 wherein, at step S1, the UE activates the multicasting service in a cell such as cell “X.” Thereafter, at step S2, the UE reverts to the “Idle” mode in cell X. At step S3, the UE listens to the broadcast and paging channels and, at step S4, the UE makes the determination of whether a new page message is present. In the event that a new page message is present, the routine branches to step S5, at which time the UE initates cell update procedures which includes setting the cell ID to a given identifier (in the example given the identifier is denoted as Y), accessing the system and updating cell location information. If no new services are offered, the UE returns to step S3 to continue to listen to the broadcast and paging channels.

Returning to step S4, in the event that no new page message is present, the UE branches to step S6 and determines if a new cell identification number is present and a new track cell ID is on. If the answer is yes, the routine branches to step S5 to perform the operation as set forth above. In the event that there is no new cell ID and track cell ID on the routine branches to step S3 to continue listening to the broadcast and paging channels. 

1. A method for reducing a number of paging messages sent over an air interface by a network in a wireless system to enhance delivery of multimedia broadcast and multicast service (MBMS) in a wireless channel, comprising: a) providing a Group Identification Number (GIN) identifying subscriber units activating at least one type of MBMS with the network; b) determining a number of subscriber units (UEs) present within a given region and assigned said GIN; c) comparing the number of UEs detected in step (a) with a given threshold; d) sending a message to UEs incorporating a flag that there is no new GIN when the number of UEs present in said given region and assigned said GIN is greater than said threshold; and e) returning to step (a).
 2. The method of claim 1 wherein said region is a location area/routing area (LA/RA).
 3. The method of claim 1, the method further comprising: the network employing a serving general packet radio service support node (SGSN) for assigning said GIN.
 4. A method for reducing a number of paging messages sent over an air interface to enhance delivery of multimedia broadcast and multicast service (MBMS) over a wireless system, comprising: a) providing a Group Identification Number (GIN) identifying subscriber units activating at least one type of MBMS with the network; b) determining a number (N) of subscriber units (UEs) present within a given region and assigned said GIN; c) comparing N against a given threshold (T); d) sending a message to UEs incorporating a flag that the UEs track for another GIN when the number (N) of UEs present in said given region and previously assigned a GIN in step (a) is less than said threshold (T); and e) returning to step (a).
 5. The method of claim 4 wherein the region is a location area/routing area (LA/RA).
 6. The method of claim 4, the method further comprising: the network employing a serving general packet radio service support node (SGSN) for assigning said GIN.
 7. A method for use by a subscriber unit (UE) in a wireless system, comprising: a) the UE activating multicasting service with a network in said system; b) obtaining an identification number (ID) from said network identifying at least one type of multimedia broadcast and multicast service (MBMS) subscribed to by said UE responsive to said activation; and c) the UE thereafter listening to broadcast and paging channels from the system whereupon, when a message from the network contains a first given flag, the UE initiates an ID routine.
 8. The method of claim 7, wherein the ID routine comprises: d) accessing the network; e) updating the ID; and f) returning to step (c) when no new subscribed MBMS is present. cecell ID is updated, and if said at least one type of (MBMS).
 9. The method of claim 7 wherein the UE, upon activation of the multicasting service, reverts to an idle mode.
 10. The method of claim 8 wherein step (b) comprises returning to step (a) when no new message is present.
 11. Apparatus for delivery of multimedia broadcast and multicast service (MBMS) over a wireless system comprising: means for providing a Group Identification Number (GIN) identifying subscriber units activating at least one type of MBMS with the network; means for detecting a number (N) of subscriber units (UEs) present within a given region and assigned a GIN; means for comparing N with a given threshold (T); means for sending a message containing a flag that UEs need not track a cell identification number (ID) when N is greater than T.
 12. The apparatus of claim 11 further comprising: means for delivering multicast updates to the UEs using one of location area (LA) and routing area (RA) paging.
 13. Apparatus for delivery of multimedia broadcast and multicast service (MBMS) over a wireless system, comprising: means for providing a Group Identification Number (GIN) identifying subscriber units activating at least one type of MBMS with a network in the system; means for detecting a number (N) of activated subscriber units (UEs) present within a given region; means for comparing N with a given threshold (T); means for sending a message to the activated UEs containing a flag instructing that UEs do not track for a GIN when N is less than T; and means for delivering multicast updates to the UEs employing single cell paging.
 14. Apparatus for use by subscriber units (UEs) in a wireless system for providing updates to a network in the system, comprising: a UE having: means for activating multicasting service in a given cell; means for obtaining an identification number (ID) from said network identifying at least one type of multimedia broadcast and multicast service (MBMS) subscribed to by said UE responsive to said activation; and means for thereafter listening to broadcast and paging channels from the system whereupon, when a message from the network contains a first flag, the UE initiates an ID routine, whereupon, when said first flag is present, the UE includes means for accessing the network and updating the ID.
 15. The apparatus of claim 14 wherein the UE, upon activation of the multicasting service, includes means to revert to an idle mode.
 16. The apparatus of claim 14 wherein the means for listening comprises means for returning to said activating means when no new message is present.
 17. The apparatus of claim 14 wherein the UE further includes means to continue listening for messages from the network when no new message is present. 